MPA Info+ brochure
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Simpho SOFT ® Info+ Access to over 1,000 multi-photon materials and structures Google-style search of parameters and structures Indispensible tool to compare and optimize photo-activated materials Best parameters source for SimphoSOFT modeling software Main features Comprehensive search Desired materials can be searched by Application, keywords, type of material Numerical range Author, country, type of measurement More advanced inquiries are also available Find the largest cross-section Find materials emitting light in a given wavelength range Light Interactions Matter Simphotek, Inc. 211 Warren Street, Newark, NJ 07103 USA +1 (613) 325-7594 +1 (973) 621-2340 Sales +44 (0) 1787-475025 www.simphotek.com/info-plus.html [email protected] Europe Worldwide Detailed photo-physical properties of over 1,000 MPA materials from peer-reviewed scientific papers Over 12,000 collected values for an extensive set of photo-physical parameters Collected multi-photon absorption cross-section values and reconstructed energy level diagrams Proprietary, customizable search tool to localize materials with desired photo-physical parameters Indispensible information resource to determine the best published material with optimal parameters Enough supporting evidence to verify and to validate the material properties collected in database Continue validating and optimizing using SimphoSOFT with confidence Imagine a task of finding an MPA material with the largest known absorption coefficient absorbing light within a desired wavelength. It can take hours, if not days, to find such a material shuffling stacks of papers and paid digital subscriptions. Use Info+ instead to speed up the process for a reasonable price. Material name Chemical structure and energy level diagram 1PA, 2PA, 3PA absorption spectrum and cross-sections Decay time(s) of fluorescence and phosphorescence states Intersystem crossing rate Fluorescence and phosphorescence quantum yields Fluorescence and phosphorescence emission spectrum Nonlinear measurement method
Transcript of MPA Info+ brochure
SimphoSOFT
® Info+ Access to over 1,000 multi-photon materials and structures
Google-style search of parameters and structures
Indispensible tool to compare and optimize photo-activated materials
Best parameters source for SimphoSOFT modeling software
Main features
Comprehensive search
Desired materials can be searched by
Application, keywords, type of material
Numerical range
Author, country, type of measurement
More advanced inquiries are also available
Find the largest cross-section
Find materials emitting light in a given wavelength range
Light Interactions Matter
Simphotek, Inc. 211 Warren Street, Newark, NJ 07103 USA
+1 (613) 325-7594
+1 (973) 621-2340Sales
+44 (0) 1787-475025www.simphotek.com/[email protected]
Europe
Worldwide
Detailed photo-physical properties of over 1,000 MPA materials from peer-reviewed scientific papers
Over 12,000 collected values for an extensive set of photo-physical parameters
Collected multi-photon absorption cross-section values and reconstructed energy level diagrams
Proprietary, customizable search tool to localize materials with desired photo-physical parameters
Indispensible information resource to determine the best published material with optimal parameters
Enough supporting evidence to verify and to validate the material properties collected in database
Continue validating and optimizing using SimphoSOFT with confidence
Imagine a task of finding an MPA material with the largest known absorption coefficient absorbing light within a desired wavelength. It can take hours, if not days, to find such a material shuffling stacks of papers and paid digital subscriptions. Use Info+ instead to speed up the process for a reasonable price.
Material name
Chemical structure and energy level diagram
1PA, 2PA, 3PA absorption spectrum and cross-sections
Decay time(s) of fluorescence and phosphorescence states
Intersystem crossing rate
Fluorescence and phosphorescence quantum yields
Fluorescence and phosphorescence emission spectrum
Nonlinear measurement method
selected applications
Bio-imaging Fluorescence microscopy Optical limiting
Calcium imaging Fluorescence probes Photodynamic therapy
Cell imaging Fluorescence proteins Photoluminescence
Confocal microscopy Internal conversion Single photon absorption/emission
DNA detection Intersystem crossing Singlet oxygen
Electron decay times Linear and nonlinear spectroscopy Singlet/triplet states
Endoscopy Micron and nano size fabrication STED
Energy level diagram Molecular structures Synthesis and characterization
Energy transfer Multi-photon absorption/emission Structure-property relationships
Excited state absorption Nonlinear transmission Theoretical analysis
Experimental methods Nonlinear absorption probes TPEF
Fluorescence imaging Optical data storage Vascular bio-imaging
Z-scan
sample materials
Anthracene derivatives Dipicolinic derivatives Phthalocyanine derivatives
Azoaromatic moieties Dipolar chromophores Platinum acetylide chromophores
Azulenyl compounds Dithienocoronene Diimide Polymeric materials
Benzothiazoles derivatives Compounds containing europium (III) Porphyrin dimers,oligomers,array
Benzo[h]chromene-2 derivatives Fluorescent proteins Pyrrole derivatives
Bioconjugate probes Fluorophores Pyrene derivatives
Bis-Terpyridyl-stilbene derivatives Fluorene derivatives Ruthenium complexes
Bis(styryl)benzene derivatives Heterafluorenes Stilbene derivatives
Branched conjugates Graphene oxide Squaraine dyes
Bromine substituted p-nitrostilbene drv Metalloporphyrins Star shaped octupolar triazatruxenes
Caged compounds Multiporphyrins Styryl derivatives
Chromophores Octupolar molecules Tetraphenylporphycenes
Cyanine dyes Orange/red fluorescent dyes Triphenylamine derivatives
Cysteine derivatives Organoplatinum chromophores Thiophene derivatives
Dendrimers Paracyclophanes Triazine derivatives
Dendritic chromophores Phenylacetylene V-shaped organic complexes
D-π-A-π-D, D-π-D, D-A chromophores Phenylene-vinylene derivatives Zn(II) -fluorophores
Light Interactions Matter
benefits in detail
You now have a comprehensive collection of structure-property relationships. The key parameters of the materials, such as its structure, its energy level diagram, its properties of absorption, relaxation, inter-system crossing, extinction coefficients, 1PA, 2PA or 3PA coefficients, wavelength, etc., can be quickly fetched from the database and passed to SimphoSOFT® for simulation. SimphoSOFT software can calculate the transmission characteristics of pulsed laser beam propagating in 1PA/2PA/3PA materials with or without taking into account the diffraction effects.
Identify material and prototype samples.
If an available laser has an intensity of 1GW/cm2, what absorption coefficient is needed to limit the output at, for example, 0.5GW/cm2? What concentration of the material is needed? What material host should be used so as not to absorb the light before it gets to the 2PA material? If too much laser intensity is used, will there be excitations to higher energy levels that affect the output intensity? Because these are nonlinear materials, the output power is not linearly related to the input power especially for organics that have both singlet and triplet states. SimphoSOFT calculates these more complicated cases. You will be able to estimate the excited state absorptions and relaxation times and use SimphoSOFT software to calculate/estimate the change in output intensity for high and low intensity lasers.
Find materials that absorb in your desired wavelength range. Look for materials that absorb in a desired wavelength range (e.g. 600–650 nm) for 1PA, 2PA or 3PA and emit in a particular wavelength range (e.g. 400–500 nm) with large enough 2PA or 3PA coefficients for the laser power they are using.
Improve performance of materials you use now. If you are a chemist/material scientist/engineer and you, for example, want to make a 2PA material that absorbs at 800–900 nm and has a low 1 photon absorption in this region, then what are the chemical structures and absorption parameters of other materials in this region? Our material database lists existing 2PA and 3PA materials absorbing in the UV, visible and IR spectral region. Using this information, the chemist can explore whether it makes sense to try to modify existing structures to obtain the required properties.
Choose the best material. If you are a microscopist/biologist/industry applicant, having a choice of lasers at 600, 800, 2000 nm and you want to observe emission at 500, 800, 2100 nm, using 2PA/3PA material as a probe, then you can search for the best candidate material with the largest 2PA or 3PA cross-section.
Start collaboration. If you want a published material that was made by a group, for example, in Spain over 3 years ago, Simphotek material database has the contact information of the group. Does that group still have the material? Can another group, for example, in Singapore get some of the material from that group in Spain?
Light Interactions Matter
Organoplatinum chromophore (Info+ material set entry)
High Performance Nonlinear Absorber Platinmumacetylide complexes andpolymers
CCCCC[P-](CCCC)(CCCC)[Pt](C#CC1=CC2=C(C=C1)C1=CC=... [bis({2-[7-(1,3-benzothiazol-2-yl)-9,9-diethyl-9H-fluoren-2-...
370 720
TPEF benzene
fs 126 μs
150 × 103 670 (T1-T2)
418 565
2011 USA
Authors: Chen Liao, Abigail H. Shelton, Kye-Young Kim, and Kirk S. Schanze
Title: Organoplatinum Chromophores for Application in High-Performance Nonlinear Absorption Materials Journal: ACS Appl. Mater. Interfaces, 3, 3225–3238 (2011)
year country
fluorescence emission wavelength (nm) phosphorescence emission wavelength (nm)
2PA laser pulse width decay time of phosphorescence state
2PA measurement method Solvent (TPA)
SMILES chemical name
Reference
1PA extinction coefficient (M–1 cm–1) excited state absorption (ESA) wavelength (nm)
2PA cross-section (GM) 2PA excitation wavelength (nm)
structure simple energy level diagram
applications category
C77 H96 N2 P2 Pt S2
Light Interactions Matter
Simphotek, Inc. 211 Warren Street, Newark, NJ 07103 USA
+1 (613) 325-7594
+1 (973) 621-2340Sales
+44 (0) [email protected]
Europe
Worldwide
